Umboniso waseTshayina weEESA wokuGcinwa kwaMandla nge-2 kaSeptemba ubone ukutyhilwa kwenoveli3.2V 688Ah LiFePO4 ibhetri iseliyenzelwe kuphela usetyenziso lokugcina amandla. Yeyona seli iLiFePO4 inkulu kakhulu ehlabathini!
Iseli ye-688Ah LiFePO4 imele isizukulwana esilandelayo seteknoloji yokugcina amandla, ebonisa uyilo oluphuculweyo kulo lonke uluhlu lwemveliso. Ngobubanzi obulinganisa malunga ne-320mm, le seli enomzimba obanzi igcina ubude obufanayo kunye nobukhulu kwiiseli ezikhoyo ze-3.2V 280Ah LiFePO4 kunye neeseli ze-314Ah lithium LiFePO4.
Okubalulekileyo, kwenziwe izinto ezintsha kwinkqubo ye-electrochemical, uyilo lwenkqubo yokwenziwa kweeseli, kunye noyilo lwetyala elipheleleyo lale seli entsha yogcino lwamandla enomthamo we-LFP 688Ah.
Ukuphunyezwa kwesizukulwana sesithathu sokuxinana kwamandla aphezuluinkqubo yebhetri ye-lithiumkwiinkqubo ze-electrochemical kubangele ukuxinana kwamandla eseli ye-435+ Wh / L, eyi-6% ephezulu kune-314Ah yangaphambili ye-lithium ibhetri yeseli. Ngaphaya koko, iseli iqhayisa ngokusebenza kakuhle kwamandla okudlula i-96%, ubomi bomjikelo obudlula i-10,000 yemijikelo yemeko yokusebenza epheleleyo, kunye nobomi bekhalenda obudlulela ngaphaya kweminyaka engama-20.
Ukuqinisekisa ukuba kuthathelwa ingqalelo amanyathelo okhuseleko oluphezulu, iteknoloji yokuzivala yobushushu be-diaphragm kunye ne-alumina ceramic coating isetyenziselwe ukuthintela ukungena kwe-particle yangaphakathi kunye nokungena kwe-lithium dendrite nge-diaphragm. Kwangaxeshanye kugxininiswe kwiinkalo zobuchule obuphezulu, iseli nganye nganye ifikelela kumthamo we-2.2 KWH ngelixa inyusa umthamo wenkqubo ukuya kuthi ga kwi-6.9MWh.
Iimpawu eziphambili ze-688Ah cell:
⭐ 688Ah umthamo omkhulu kakhulu
⭐ 320mm ububanzi
⭐ 435+ Wh/L ukuxinana kwamandla kwiseli
⭐ >10,000 amaxesha obomi bomjikelo
⭐ >Iminyaka engama-20 yobomi bekhalenda
Isizukulwana samva nje sepleyiti yesigqubuthelo seseli kunye noyilo lweqokobhe le-aluminium samkelwe ukomeleza amandla eseli ye-LFP ngokwendlela yoyilo lwesakhiwo seseli. Ngokwendlela yenkqubo, ukhetho lwenkqubo yokusonga luphucula ngakumbi umyinge wengeniso yendawo yangaphakathi, lwandise uxinano lwamandla, kwaye luphucula ukuhambelana kojongano.
Emva kokubola ngokucwangcisiweyo yonke i-container ye-20-foot, i-688Ahlithium iron phosphate cellngomthamo oyi-6.9MWh yaphuhliswa ngempumelelo. Kwisithuba esilinganiselweyo, kuyenzeka ukuyila i-688Ah lithium phosphate cell ehlangabezana nale mfuneko yobungakanani ngokweemfuno zabathengi. Le seli ayichazi nje kuphela iimpawu zayo kunye nobukhulu bayo, kodwa ikwamisela umthamo kunye namandla ayo.
Ngomgangatho oqhelekileyo we-20-foot container exhotyiswe nge-688Ah umthamo, umthamo opheleleyo wokugcina amandla wenkqubo unyuswe ukuya kwi-6.9MWh +, ukuphumeza ngokwenene ukuphela kokusebenza "ukunciphisa iindleko kunye nokuphucula ukusebenza kakuhle" njengokunciphisa indawo yeprojekthi, iindleko eziphantsi zotyalo-mali, ixesha elide. ubomi benkonzo, kunye nokugcinwa kwexesha elide. Oku kuyiphucule kakhulu imbuyekezo kutyalo-mali kwiiprojekthi zesikhululo samandla.
I-3.2V 688Ah LFP ibhetri yeseli kulindeleke ukuba iveliswe ngobuninzi kwaye ihanjiswe kwi-4.thikota ka-2025. Ukuqaliswa kweseli ye-688Ah LiFePO4 ijolise ekukhuthazeni umgangatho womgangatho.ibhetri yokugcina lithiumiinkcukacha kunye nokudala ngokudibeneyo ipateni entsha kwimakethi yesicelo sokugcina ibhetri ye-lithium.
Ixesha lokuposa: Sep-14-2024